CN208044621U - Electronic equipment covers the one-piece type fingerprint sensor module component of window - Google Patents

Abstract

The utility model is related to a kind of appearance it is simple it is generous, electronic equipment that is more beautiful, improving water resistance covers the one-piece type fingerprint sensor module component of window in design.It includes covering window, fingerprint sensor module and adhesive portion to cover the one-piece type fingerprint sensor module component of window according to the electronic equipment of the utility model embodiment.Wherein, covering window is set to electronic equipment, and display is formed with placement portion by the image of display module below towards on the inside of electronic equipment.Fingerprint sensor module includes fingerprint sensor and substrate, and is located at placement portion, and there are the fingerprint sensor detecting means for sensing fingerprint, the substrate to be electrically connected with fingerprint sensor.Also, adhesive portion is set between placement portion and fingerprint sensor module, and fingerprint sensor module is fixed on placement portion.

Description

Electronic equipment covers the one-piece type fingerprint sensor module component of window

Technical field

The utility model is related to a kind of electronic equipment to cover the one-piece type fingerprint sensor module component of window, in more detail, Be related to a kind of appearance it is simple it is generous, in design it is more beautiful, improve the electronic equipment covering one-piece type finger of window of water resistance Line sensor assembly component.

Background technology

The concern including smart mobile phone or the portable electronic device of tablet computer is concentrated with people recently, for The research and development of correlative technology field are also actively carrying out.

Portable electronic device is built-in with as a kind of input equipment for receiving specific command input by user simultaneously With as display equipment indicator integral touch screen the case where it is in the majority.Moreover, in addition to a touch, portable electronic Equipment is also equipped with various functions key or soft key etc. and is used as other input equipments.

These function keys or soft key can be used as major key to act, for example, the application jumped out in being currently running can be executed Program and the function of going to initial picture, either can be as making user interface return to the return key of last layer or recall common The Menu key of menu acts.These function keys or soft key can be by way of detecting the capacitance of conductor or detection time writer Electromagnetic wave mode or simultaneously use both modes complex method realize, physical button can also be embodied as.

On the other hand, recently as the purposes of portable electronic device is rapidly spread to need the service of safeguard protection, by Being installed in portable in high security has the function of becoming for the biometric sensor for measuring biological information Gesture also increases.

The example of Biont information includes fingerprint, the blood vessel of the back of the hand, sound, iris etc..As biometric sensor master To use fingerprint sensor.

Fingerprint sensor is the sensor of the finger print for detecting people, and can carry out user by fingerprint sensor The step of login or certification, protects the data stored in portable electronic device, and can prevent safety accident in advance.

Fingerprint sensor can be made into the form of the module comprising peripheral parts or structure, and can by with physics Function key integration is realized, therefore, can be to effectively mount on various electronic equipments.

In recent years, the use scope of fingerprint sensor becomes more extensively, for example, the behaviour that will execute such as cursor indicator The navigation feature of work is integrated into fingerprint sensor.The fingerprint sensor of this form is referred to as bio-identification tracking plate (BTP； Biometric Track Pad)。

The type of fingerprint sensor includes condenser type, optical profile type, ultrasonic type, thermal-induction type, contactless fingerprint sensing Device etc..Wherein, mostly excellent, few using sensitivity recently to be influenced between portable electronic device by external environment variation The good capacitive fingerprint sensing device of conformability.

Fig. 1 is the schematic diagram for showing to be equipped with the electronic equipment of existing fingerprint sensor module, and Fig. 2 is along Fig. 1's The schematic cross-section of line A-A.

As depicted in figs. 1 and 2, buttonhole 21 is formed through the covering window 20 in existing electronic equipment 10, and fingerprint sensing Device module 30 is set to buttonhole 21.

Fingerprint sensor module 30 includes having the fingerprint sensor 32 of detecting means 31 and being installed for fingerprint sensor 32 Substrate 33, and include that the layer 34 of color layer and protective layer etc. is set to the upper surface of fingerprint sensor 32.In general, being attached to buttonhole 21 fingerprint sensor module 30 is mounted so that the upper surface of layer 34 35 has and the upper surface of covering window 20 22 approximate height Degree.

On the other hand, it due to making electronic equipment with different thickness according to manufacturer, needs that suitable there is this The fingerprint sensor module of different height.For this purpose, using the height for adjusting fingerprint sensor 32 or adjusting the thickness of substrate 33 Method, but in order to increase the height of fingerprint sensor 32 or the thickness of substrate 33, the increased burden of cost is caused, and due to existing The substrate of different-thickness and be difficult to manage.

Also, it is formed through buttonhole 21 in covering window 20, it is therefore, external so that fingerprint sensor module 30 is installed Moisture or moisture in air can penetrate into the gap between buttonhole 21 and fingerprint sensor module 30.Moreover, outside moisture or The infiltration of moisture in air can cause the short circuit of fingerprint sensor module 30, become the failure that can cause fingerprint sensor 32 or The problem of damage.In the past in order to prevent the infiltration of said external moisture or moisture in air and sealant 40 is further set, but It eventually leads to cost and increases and process increase.

The above problem can be appeared in jointly through chip on board (COB), quad flat package (QFP), ball bar array (BGA) and the fingerprint sensor module that is formed of the various packaging methods such as wafer-level packaging (WLP).

Utility model content

Technical problem

To solve the above-mentioned problems, it is simple generous, more beautiful in design that the purpose of this utility model is to provide appearances The electronic equipment for seeing, improving water resistance covers the one-piece type fingerprint sensor module component of window.

Technical solution

In order to achieve the above object, an embodiment of the utility model provides a kind of electronic equipment and covers the one-piece type finger of window Line sensor assembly component, which is characterized in that including：Window is covered, electronic equipment, the shadow that display passes through display module are set to Picture is formed with placement portion below towards on the inside of the electronic equipment；Fingerprint sensor module, including fingerprint sensor and base Plate, and it is located at the placement portion, the fingerprint sensor has the detecting means for sensing fingerprint, the substrate and the fingerprint Sensor is electrically connected；And adhesive portion, it is set between the placement portion and the fingerprint sensor module, by the fingerprint sensing Device module is fixed on the placement portion.

In an embodiment of the utility model, the placement portion can be set to the surface below the covering window On.

In an embodiment of the utility model, the placement portion can landform corresponding with the shape of the fingerprint sensor As groove-like, and the fingerprint sensor can dispose and be fixed on the placement portion.

In an embodiment of the utility model, the placement portion can be formed by etching or machining.

In an embodiment of the utility model, at least part of the detecting means and the fingerprint sensor can position In the placement portion.

In an embodiment of the utility model, at least part of the substrate may be additionally located in the placement portion.

In an embodiment of the utility model, the institute between the upper surface of the upper surface of described covering window and the detecting means The thickness for stating covering window can be 200~300um.

In an embodiment of the utility model, the covering window may include showing the display area of image and setting There is frame region of the printing layer without showing image, and the placement portion can be formed in the frame region.

In an embodiment of the utility model, it is equivalent in the upper surface of described covering window for being exposed to user described The region of the upside of fingerprint sensor may also be formed with cloudy quarter or positive needle drawing case.

It, can be with along the edge of the placement portion below the covering window in an embodiment of the utility model It is formed with the open area with preset width, and illumination region, the illumination region can be equipped in the downside of the covering window The light to the transmitting of the upper surface of the covering window by the open area is provided.

In an embodiment of the utility model, at least one illumination region can be set to and the substrate or the finger The main substrate of line sensor assembly electrical connection.

In an embodiment of the utility model, the covering window may include showing the display area of image and setting There is frame region of the printing layer without showing image, and the placement portion can be formed in the display area.

In an embodiment of the utility model, the covering window can be by being selected from glass, sapphire, zirconium and transparent tree Material in fat is made.

In an embodiment of the utility model, the covering window may also include independently of the covering window and be arranged Non-display portion, and the placement portion can be formed in the non-display portion.

In an embodiment of the utility model, the non-display portion can be made of resin or metal material.

In an embodiment of the utility model, the covering window may include：First covering window, is showed out thereon In user；Adhesive linkage is set to described first and covers below window；And second covering window, above with the adhesive linkage It is bonded with below the first covering window, and the placement portion can penetrate through the second covering window and be formed.

In an embodiment of the utility model, the thickness of the second covering window can be with the fingerprint sensor It is highly corresponding.

In an embodiment of the utility model, color layers can be set on the surface of the placement portion, and the bonding Portion can be filled in the color layers.

An embodiment according to the present utility model, due to fingerprint sensor and the placement portion being formed in below covering window In conjunction with therefore, when from covering the upper surface of window observation, continuous surface can be formed, to which appearance is simply generous and is setting It can be more beautiful on meter.

Also, an embodiment according to the present utility model, covering window do not have such as the general buttonhole of existing covering window And there is continuous surface, therefore, it can prevent outside moisture or moisture in air from permeating in structure, it is possible thereby to improve anti- Aqueous energy.

The effect of the utility model is not limited to the effect, it should be understood that includes from the detailed of the utility model Illustrate or the structure of utility model described in claim in reason out institute it is effective.

Description of the drawings

Fig. 1 is the schematic diagram for showing to be equipped with the electronic equipment of existing fingerprint sensor module.

Fig. 2 is the schematic cross-section of the line A-A along Fig. 1.

Fig. 3 is to show to have the one-piece type fingerprint of electronic equipment covering window of first embodiment according to the present utility model to pass The schematic diagram of the electronic equipment of sensor module component.

Fig. 4 is the electronic equipment covering one-piece type fingerprint sensor of window for showing first embodiment according to the present utility model The plan view of modular assembly.

Fig. 5 is the electronic equipment covering one-piece type fingerprint sensor of window for showing first embodiment according to the present utility model The upward view of modular assembly.

Fig. 6 is to cover the one-piece type fingerprint sensor module of window according to the electronic equipment of the first embodiment of the utility model The decomposition perspective view of component.

Fig. 7 is the schematic cross-section of the line B-B along Fig. 4.

Fig. 8 is to show that the electronic equipment in first embodiment according to the present utility model covers the one-piece type fingerprint sensing of window The schematic cross-section of the combination example of fingerprint sensor module and placement portion in device modular assembly.

Fig. 9 and Figure 10 is the electronic equipment covering one-piece type fingerprint of window for showing first embodiment according to the present utility model The schematic cross-section of the setting example of sensor assembly component.

Figure 11 is that electronic equipment covering window of the amplification diagram with first embodiment according to the present utility model is one-piece type The floor map of a part for the electronic equipment of fingerprint sensor module component.

Figure 12 is the schematic cross-section of the setting example for the illumination region for showing the line C-C along Figure 11.

Figure 13 to Figure 15 be show first embodiment according to the present utility model electronic equipment covering window it is one-piece type The schematic diagram of the formation example on the surface of the covering window of the upside of fingerprint sensor is equivalent in fingerprint sensor module component.

Figure 16 is the electronic equipment covering one-piece type fingerprint sensing of window for showing second embodiment according to the present utility model The schematic cross-section of the setting example of device modular assembly and electronic equipment.

Figure 17 is the electronic equipment covering one-piece type fingerprint sensing of window for showing 3rd embodiment according to the present utility model The floor map of the covering window of device modular assembly.

Figure 18 is the electronic equipment covering one-piece type fingerprint sensing of window for showing fourth embodiment according to the present utility model The floor map of the covering window of device modular assembly.

Figure 19 is the electronic equipment covering one-piece type fingerprint sensing of window for showing the 5th embodiment according to the present utility model The perspective view of device modular assembly.

Figure 20 is the electronic equipment covering one-piece type fingerprint sensing of window for showing the 5th embodiment according to the present utility model The perspective view of the fingerprint sensor module of device modular assembly.

Figure 21 is the schematic cross-section of the G-G lines along Figure 19.

Figure 22 is the electronic equipment covering one-piece type fingerprint sensing of window for showing the 5th embodiment according to the present utility model The decomposition perspective view of device modular assembly.

Symbol description

100,700:Electronic equipment covers the one-piece type fingerprint sensor module component of window

110,310,510,610,750:Cover window

111:Display area

112:Frame region

113:Printing layer

115,551,651,751:Placement portion

119,735:Open area

120,121,122:Pattern

140,710:Fingerprint sensor module

141,711:Fingerprint sensor

145,712:Substrate

170,755:Adhesive portion

180:Color layers

200:Electronic equipment

210:Display module

220:Main substrate

230:Connector

250:Illumination region

320:First covering window

330:Adhesive linkage

340:Second covering window

550:Non-display portion

720:Substrate

730:Lid

Specific implementation mode

The utility model is more fully described below with reference to accompanying drawings, wherein the utility model is exemplary in the accompanying drawings Embodiment is shown.However, the utility model can be realized in many different forms, and should not be construed as limited to This embodiment illustrated.In the accompanying drawings, in order to illustrate simplicity, the part unrelated with description is omitted, and identical mark Number identical component is indicated always.

Throughout the specification, certain a part with another part phase " connection " when, not only including " being directly connected to " the case where, Further include having the case where other assemblies " being indirectly connected with " in centre.Also, works as and be expressed as certain part " comprising " structural element When, it unless there are especially opposite record, does not otherwise indicate that and excludes other structures element, but indicate to further comprise other knots Structure element.

In the following, the embodiments of the present invention are described in detail with reference to attached drawing.

Fig. 3 is to show to have the one-piece type fingerprint of electronic equipment covering window of first embodiment according to the present utility model to pass The schematic diagram of the electronic equipment of sensor module component, Fig. 4 are the electronic equipment for showing first embodiment according to the present utility model The plan view of the one-piece type fingerprint sensor module component of window is covered, Fig. 5 is to show first embodiment according to the present utility model Electronic equipment covering the one-piece type fingerprint sensor module component of window upward view, Fig. 6 be according to the first of the utility model The decomposition perspective view of the electronic equipment covering one-piece type fingerprint sensor module component of window of embodiment, Fig. 7 is the B-B along Fig. 4 The schematic cross-section of line.

As shown in Fig. 3 to Fig. 7, the electronic equipment of first embodiment according to the present utility model covers the one-piece type fingerprint of window Sensor assembly component 100 may include covering window 110, fingerprint sensor module 140 and adhesive portion 170.

Wherein, covering window 110 is set to before electronic equipment 200, so as to pass through display module 210 (with reference to Fig. 9) Image is through display.

Covering window 110 can be made of the material in glass, sapphire, zirconium and transparent resin.When covering window 110 of glass material when being made, and can use such as soda-lime glass substrate, the various glass such as alkali-free glass substrate or hardened glass substrate Glass substrate.Moreover, acrylic resin etc. can be used as transparent resin.

Covering window 110 may include the display area 111 for showing image and the frame region 112 for not showing image.

Frame region 112 may include printing layer 113 and be formed.When covering window 110 is installed in electronic equipment 200 When, printing layer 113 can be set to towards below the covering window 110 of the inside of electronic equipment 200 114, and can be set to and be covered The fringe region of lid window 110.

In addition, fingerprint sensor module 140 may include fingerprint sensor 141 and substrate 145.

Various types may be used in fingerprint sensor 141 according to the present utility model.For example, fingerprint sensor 141 can be with Using capacitive way, optical mode, ultrasonic wave mode, thermoinduction mode, cordless etc..In the following, for convenience of explanation, it is right It is illustrated using the fingerprint sensor 141 of capacitive way.

Fingerprint sensor 141 may include the detecting means 142 for sensing fingerprint.Detecting means 142 can be implemented as various Form, for example, detecting means 142 can be implemented as being arranged to array form and the sensing pixels with sensitive zones.Also, it senses Portion 142 can be implemented as the multiple driving electrodes and receiving electrode of line style.In addition, detecting means 142 can also be embodied as having it is more The AREA types of a image receiving section.

Moreover, detecting means 142 can detect the height caused by the shape of the peak and valley of the fingerprint of the finger according to user The capacitance difference of difference is spent, and scans the image of fingerprint to generate fingerprint image.Not only when the finger of user is contacted with detecting means 142 When, and when being moved in the state that the finger of user is contacted with detecting means 142, detecting means 142, which can pass through, scans fingerprint Image generates fingerprint image.

Also, detecting means 142 can have the function of to sense the fingerprint sensing and indicator operating function of fingerprint simultaneously, by This, fingerprint sensor 141 can be implemented as bio-identification tracking plate (BTP).

Further, detecting means 142 can also be with the position tracking function of user's finger.That is, detecting means 142 can be felt Measure whether user's finger close or input information or electrostatic according to finger movement, and can have based on finger movement make as The indicator operating function of the indicators such as cursor movement.

Also, fingerprint sensor 141 can be electrically connected with substrate 145.Electricity between fingerprint sensor 141 and substrate 145 Connection, which may be used, to be embodied in various ways, for example, can pass through surface mounting technique (SMT；Surface Mount ) etc. Technology modes connect.

In addition, fingerprint sensor 141 can pass through such as chip on board (COB), quad flat package (QFP), ball bar array (BGA), the various packaging methods such as wafer-level packaging (WLP), silicon hole (TSV) are formed.

Substrate 145 may include mounting portion 146 for being installed for fingerprint sensor 141 and extend from mounting portion 146 Extension 147.Substrate 145 can be flexible printed circuit board (FPCB), and extension 147 can with set on electronic equipment 200 The connector 230 of main substrate 220 (with reference to Fig. 9) be connected (with reference to Fig. 9).

Moreover, covering window 110 may include placement portion 115, the placement portion 115 is formed in towards electronic equipment 200 Inside below 114.In the present embodiment, placement portion 115 can be formed in frame region 112.

Also, placement portion 115 can be formed in below covering window 110 on 114 surface, or can be with form of grooves It is formed in covering window 110.

In the case where placement portion 115 is formed with form of grooves, placement portion 115 can be with the shape of fingerprint sensor 141 Accordingly formed.In the following, for convenience of explanation, the case where being formed with form of grooves to placement portion 115, illustrates.

In the case where placement portion 115 is formed with form of grooves, placement portion 115 can pass through etching or cutting working method Deng formation, and these methods can suitably be selected according to the material of covering window 110.Such as in covering window 110 by glass material In the case of made of material, placement portion 115 can be formed by etching or calculator Numerical Control (CNC) processing method.As erosion Carving method, may be used the method that dry ecthing or wet etching is used alone, or can use dry ecthing and wet etching is used alternatingly Method.Also, in covering window 110 as made of the synthetic resin such as plastics, placement portion 115 can be covered in molding It is molded together during lid window.

Placement portion 115 can be combined with fingerprint sensor module 140, and adhesive portion 170 can be set to placement portion 115, make Fingerprint sensor module 140 is obtained to be securely joined in placement portion 115.

Wherein, color layers 180 can be set on the surface of placement portion 115.Color layers 180 can with set on covering window The printing layer 113 of 110 frame region 112 is together in 116 apparent colors of the upper surface of covering window 110.

Color layers 180 can only be set to the bottom surface 117 of placement portion 115, or can further be set to the side of placement portion 115 118.Also, color layers 180 can have the color identical or different with printing layer 113.

Adhesive portion 170 can be set in color layers 180.That is, color layers 180 can first be set to placement portion 115, then glue Socket part 170 can be set in color layers 180.

Adhesive portion 170 can be implemented as the various forms such as form of film, liquid form, powder type.Adhesive portion 170 can be with It is suitably selected according to the type of fingerprint sensor, for example, in the case where fingerprint sensor 141 is using capacitive way, adhesive portion 170 preferably have high-dielectric constant, high adhesion and low viscosity, and in the case where fingerprint sensor 141 is using ultrasonic wave mode, Adhesive portion 170 preferably have it is non-conductive, so as not to influence sound wave.

Adhesive portion 170 can be set to bottom surface 117 and the side 118 of entire placement portion 115, or can shape with the following method At：In order to fix the position of fingerprint sensor 141 and adhesive portion 170 is first set to the bottom surface 117 of placement portion 115, then, placement portion 115 side 118, that is, the space between the lateral surface to fingerprint sensor 141 and the side 118 of placement portion 115 is further filled out Adhesive portion 170 is filled, so that fixed in position of casting is in the fingerprint sensor 141 of placement portion 115.

At least part of detecting means 142 and fingerprint sensor 141 can be located in placement portion 115.

The thickness D1 of covering window 110 of covering the upper surface of the window 110 between the upper surface of 116 and detecting means 142 can be 200~300um.The thickness D1 allows for the intensity of covering window 110 and the sensing sensitivity of fingerprint sensor 141 and obtains Go out, if thickness D1 is less than 200um, covers window 110 and be possible to that sufficient intensity can not be provided, and if thickness D1 is more than 300um, then the sensing sensitivity of detecting means 142 can reduce.

Fig. 8 is to show that the electronic equipment in first embodiment according to the present utility model covers the one-piece type fingerprint sensing of window The schematic cross-section of the combination example of fingerprint sensor module and placement portion in device modular assembly.

With reference to part (a) of Fig. 8, placement portion 115 can accordingly be formed with the shape of fingerprint sensor 141, and fingerprint Sensor 141, which can dispose, is fixed on placement portion 115.That is, detecting means 142 and fingerprint sensor 141 can be installed on simultaneously Set portion 115.Moreover, the mounting portion 146 and extension 147 of substrate 145 can be set to the outside of placement portion 115.

On the other hand, with reference to part (b) of Fig. 8, at least part of substrate 145 may be additionally located in placement portion 115a.Its In, a part of of substrate 145 being located in placement portion 115a can be mounting portion 146.That is, the fingerprint including detecting means 142 passes The mounting portion 146 of sensor 141 and substrate 145 can be simultaneously placed in placement portion 115a.

In addition, with reference to part (c) of Fig. 8, the mounting portion 146b of substrate 145b, which can be formed to have, compares fingerprint sensor 141 broader areas.Therefore, when fingerprint sensor 141 is all placed in placement portion 115, a part 149 of mounting portion 146b It can be extended to form to the outside of fingerprint sensor 141.At this point, the mounting portion that the outside of opposite fingerprint sensor 141 extends The length L of 146b is not particularly limited.

Also, with reference to the part (d) of Fig. 8, the top of detecting means 142 and fingerprint sensor 141 can be located at placement portion 115c.That is, according to the present embodiment, at least part of detecting means 142 and fingerprint sensor 141 can be located at placement portion 115c.

As described above, according to the utility model, due to fingerprint sensor 141 and it is formed in below covering window 110 114 placement portion 115 combines, thus the upper surface of covering window 110 116 can be formed continuously, to which appearance is simply generous, and It can be more beautiful in design.Also, according to the utility model, since covering window 110 does not have such as existing covering window Buttonhole and have continuous surface, therefore can be blocked in structure outside moisture or moisture in air infiltration, so as to change Kind water resistance.

Fig. 9 and Figure 10 is to cover the one-piece type fingerprint sensing of window according to the electronic equipment of the first embodiment of the utility model The schematic cross-section of the setting example of device modular assembly.

First, as shown in figure 9, fingerprint sensor 141 can dispose the placement portion 115 for being fixed on covering window 110.And And the mounting portion 146 of substrate 145 can be close to below covering window 110 114.At this point, since the thickness of substrate 145 can With sufficiently thin, thus display module 210 can abut or be tightly attached to the electronic equipment covering one-piece type fingerprint sensor module of window The downside of component 100.Covering window 110 and display module 210 can be bonded by adhesive (not shown) etc..

Wherein, display module 210 may include touch screen panel (not shown), and the main substrate 220 of electronic equipment The downside of display module 210 can be set to.Moreover, connector 230 can be set to main substrate 220.

In covering the one-piece type fingerprint sensor module component of window according to the electronic equipment of the utility model embodiment, Fingerprint sensor 141 is attached in the state of placement portion 115, and the extension 147 of substrate 145 prolongs to the outside of display module 210 Stretch and be connected to the connector 230 of main substrate 220.This connection type can be applied to touch screen panel and be set to display module The structure or touch screen panel of 210 inside are set to the structure etc. of the upside of display module 210.

Moreover, as shown in Figure 10, a part of of fingerprint sensor 141 can be prominent to placement portion 115d, in such case Under, display module 210d can be located at the position of the lower part less than fingerprint sensor 141.For example, the length of display module 210d Can be more shorter than the length of display module 210 illustrated in fig. 9, thus, it is possible in display module 210d and fingerprint sensor 141 Between do not overlap.

Figure 11 is that electronic equipment covering window of the amplification diagram with first embodiment according to the present utility model is one-piece type The floor map of a part for the electronic equipment of fingerprint sensor module component, Figure 12 are the hair for showing the line C-C along Figure 11 The schematic cross-section of the setting example in light portion.

As is illustrated by figs. 11 and 12, covering window 110 below 114 can be formed along placement portion 115 edge tool There is the open area 119 of preset width.Wherein, open area 119 can be not formed to be set to along the edge of placement portion 115 to cover The surface of 114 printing layer 113 below lid window 110.

Also, illumination region 250 can be set to the downside of covering window 110.

2 part (a) referring to Fig.1, at least one illumination region 250 can be set to the main substrate 220 of electronic equipment 200, and Illumination region 250 can be installed on main substrate 220, so as to positioned at the periphery of fingerprint sensor 141.Illumination region 250 can will shine Diode (LED) is used as light source, and may include multiple light sources to irradiate the light of a variety of colors, for example, White LED, red Color LED and green LED etc..

Illumination region 250 can be properly used the light source with top directive property of upward side direction irradiation light or to lower side To the light source with lower section directive property of irradiation light.

The light sent out by illumination region 250 can be emitted to the upper surface of covering window 110 116 by open area 119.Pass through Open area 119 be emitted to covering window 110 above 116 light can show the shape of open area 119, and the shape can be with Play the role of indicating the indicator of the position of fingerprint sensor 141.

That is, in the present invention, the upside of fingerprint sensor 141 is covered by covering window 110, and therefore, user is difficult to Recognize the position of fingerprint sensor 141.The light sent out by open area 119 can indicate the position of fingerprint sensor 141, In particular, can effectively indicate the position of fingerprint sensor 141 at night.

Although icon open area 119 is in trade shape in Figure 11, this is illustrative purpose, and along In the case that the edge of placement portion 115 forms open area 119, open area 119 is not limited and can be formed as various shapes Shape.

Also, illumination region 250 can emit the light of a variety of colors by the combination of light source, and can be by being sent out according to function The light of each different colours is penetrated to make user recognize correlation function, state etc. by photochromic.

Further, open area 119 can with 3 to Figure 15 aftermentioned various combinations of patterns will use referring to Fig.1.

On the other hand, 2 part (b), at least one illumination region 250 can be set to substrate 145e referring to Fig.1.Illumination region 250 can be set to the mounting portion 146e of substrate 145e, for this purpose, mounting portion 146e can extend to the outside of fingerprint sensor 141 It is formed.

Further, vibration section (not shown) can also be set at least one of substrate 145e and main substrate 220, institute It states vibration section to be linked together certain vibration occurs with illumination region 250 so that user can recognize correlation function, state etc..

Figure 13 to Figure 15 be show first embodiment according to the present utility model electronic equipment covering window it is one-piece type The schematic diagram of the formation example on the surface of the covering window of the upside of fingerprint sensor is equivalent in fingerprint sensor module component.

As shown in FIG. 13 to 15, it is equivalent to fingerprint sensor in the upper surface of covering window 110 for being exposed to user 116 The region of 141 upside can also form cloudy quarter or positive needle drawing case.

First, the plan view of (a) of Figure 13 covering window shown partially, and (b) partly for along the signal of the section of line D-D Figure.Referring to Fig.1 3, the region for the upside for being equivalent to fingerprint sensor 141 in the upper surface of covering window 110 116 can be formed Cloudy needle drawing case 120.Cloudy needle drawing case 120 can have geometry etc..

Also, the plan view of (a) of Figure 14 covering windows shown partially, and (b) partly for along the signal of the section of E-E lines Figure.Referring to Fig.1 4, cloudy needle drawing case 121 may be formed as groove-like.

Moreover, the plan view of (a) of Figure 15 covering windows shown partially, and (b) partly for along the signal of the section of F-F lines Figure.Referring to Fig.1 5, the region for the upside for being equivalent to fingerprint sensor 141 in the upper surface of covering window 110 116 can be formed Positive needle drawing case 122.Wherein, positive needle drawing case 122 can be formed in the region other than fingerprint sensing region.Although will in Figure 15 Positive 122 icon of needle drawing case is to protrude the ring-type to be formed along the edge of fingerprint sensor 141, but this is illustrative mesh , it is not necessarily limited to this above-mentioned shape.

On the other hand, it is in state not outstanding when positive needle drawing case 122 is flat, but in a particular state, for example, when user's When finger touches, positive needle drawing case 122 can protrude.For this purpose, positive needle drawing case 122 can be implemented as being independently arranged at covering window The upper surface of 110 component, the component may include to form the composition of positive needle drawing case 122 and deformable polymer material.

Figure 16 is the electronic equipment covering one-piece type fingerprint sensing of window for showing second embodiment according to the present utility model The schematic cross-section of the setting example of device modular assembly and electronic equipment.In the present embodiment, the composition for covering window can be different, And other compositions are identical as above-mentioned first embodiment, and the description is omitted.

As shown in figure 16, covering window 310 may include the first covering window 320, the covering window of adhesive linkage 330 and second 340。

The upper surface of first covering window 320 321 is can be exposed to the face of user, and adhesive linkage 330 can be set to first It covers below window 320.

Adhesive linkage 330 can be coated or adhere in the form of a film, it is, for example, possible to use optical clear resin (OCR； Optically Clear Resin) or Optical transparent adhesive (OCA；Optically Clear Adhesive).

The upper surface of second covering window 340 can be attached to adhesive linkage 330, be glued below window 320 with being covered with first It closes.Second covering window 340 and first, which covers window 320, to be made of identical material.

Placement portion 341 can be formed in the second covering window 340, at this point, placement portion 341 can penetrate through the second covering window 340 and formed.

Also, top pair with fingerprint sensor 141 during color layers 350 can be set to below the first covering window 320 That answers is located in, and can also be set to the side of the placement portion 341 of the second covering window 340.

Also, adhesive portion 370 can also be set to side and the fingerprint sensor 141 of the placement portion 341 of the second covering window 340 Side between.

The thickness of second covering window 340 can be corresponding with the thickness of fingerprint sensor 141, in this case, peace As long as setting second covering window 340 of the perforation of portion 341 and being formed, accordingly, there exist can be omitted for adjusting placement portion 341 The advantages of engineering of depth.

The extension 347 for the substrate 345 that fingerprint sensor 141 for being attached to placement portion 341 is installed can be to display mould The outside of block 210 extends and is connected to the connector 230 of main substrate 220, and this connection type can be applied to touch screen Panel (not shown) is set to the structure of the inside of display module 210 or touch screen panel (not shown) is set to display mould The structure etc. of the upside of block 210.

Figure 17 is the electronic equipment covering one-piece type fingerprint sensing of window for showing 3rd embodiment according to the present utility model The floor map of the covering window of device modular assembly.

As shown in figure 17, non-display portion 550, the non-display portion may also include according to the covering window 510 of the present embodiment 550 are arranged independently of covering window 510.Also, placement portion 551 can be formed in non-display portion 550.

In the present embodiment, non-display portion 550 can be made of the synthetic resin such as such as plastics or metal material.

Moreover, placement portion 551 can be formed after forming non-display portion 550 by processing, or in molding non-display portion It is formed together during 550.

In the present embodiment, due to formed non-display portion 550 material property and non-display portion 550 can be formed as impermeable It is bright, therefore can be omitted the printing layer 113 used in the above-described first embodiment (with reference to Fig. 7).

Figure 18 is the electronic equipment covering one-piece type fingerprint sensing of window for showing fourth embodiment according to the present utility model The floor map of the covering window of device modular assembly.

As shown in figure 18, according in the frame region 611 and above-mentioned first embodiment of the covering window 610 of the present embodiment Frame region 112 is compared (with reference to Fig. 4), and the area for covering the frame region 611 of the downside of window 610 can be with smaller.That is, with On the basis of the covering window of same size, implemented than above-mentioned first according to the display area 612 of the covering window 610 of the present embodiment The display area 111 of example is wider (with reference to Fig. 4).

In addition, placement portion 651 can be formed in display area 612.

In the present embodiment, since placement portion 651 is formed in display area 612, fingerprint sensor (not shown) can To be set to display area 612, therefore, image can also be shown in the two side areas 613 of fingerprint sensor, so as to realize more Various picture shows.

With reference to Fig. 9, the present embodiment is construed as in the covering window other than the setting unit of fingerprint sensor 141 The lower portion (that is, display area 612) of mouth 110 shows the image of display module 210.

Figure 19 is the electronic equipment covering one-piece type fingerprint sensing of window for showing the 5th embodiment according to the present utility model The perspective view of device modular assembly, Figure 20 are the electronic equipment covering window one for showing the 5th embodiment according to the present utility model The perspective view of the fingerprint sensor module of type fingerprint sensor module component, Figure 21 are the schematic cross-section of the G-G lines along Figure 19, Figure 22 is the electronic equipment covering one-piece type fingerprint sensor module group of window for showing the 5th embodiment according to the present utility model The decomposition perspective view of part.In the present embodiment, the composition of fingerprint sensor module can be different, and other are constituted and above-mentioned first Embodiment is identical, and and the description is omitted.

As shown in Figure 19 to Figure 22, according to the one-piece type fingerprint sensor module component of covering window 700 of the present embodiment Fingerprint sensor module 710 may include fingerprint sensor 711, substrate 712, substrate 720 and lid 730.

Wherein, fingerprint sensor 711 can be applicable in and the relevant all the elements of the fingerprint sensor of first embodiment.

Fingerprint sensor 711 may be mounted on substrate 712, and in the present embodiment, and substrate 712 can be rigidity printing Circuit board (PCB).

In addition, substrate 720 may include concave part 721, reflecting part 724 and through portion 725.

Concave part 721, which can be recessed, is formed in the upper surface of substrate 720 722.Also, it can be with shape at the center of concave part 721 At there is a support portion 723, and the substrate 712 installed for fingerprint sensor 711 can be supported by support portion 723.For substrate 712 Stablize support, support portion 723 could be provided as a pair.

Illumination region 714 can be set to 713 below substrate 712.Illumination region 714 can be applicable in and above-mentioned first embodiment The relevant all the elements of illumination region.

Moreover, reflecting part 724 can be set to the inner face of concave part 721.Reflecting part 724 can pass through deposition, printing, spray The settings such as painting and plating.For example, reflecting part 724 can be formed by coating the solution with reflection function, or can pass through Reflectance coating is coated to be formed.Therefore, the light sent out by below substrate 712 713 illumination region 714 can be by reflecting part 724 reflections.Further, reflecting part 724 can make light total reflection.

Also, through portion 725 can be formed in the center of substrate 720, and connector portion 715 can be installed on substrate 712 Below 713 centers.Connector portion 715 can by through portion 725 to the outside of fingerprint sensor module 710 expose, with Main substrate (not shown) set on electronic equipment is electrically connected.

Moreover, lid 730 can cover the upper surface of substrate 720 and fixed fingerprint sensor 711.

Opening portion 731 can be formed through in lid 730.Fingerprint sensor 711 can be combined with opening portion 731, and be passed Sense portion (not shown) can be exposed by opening portion 731.

It is formed in 732 below lid 730 in addition, fixed part 733 can protrude, and substrate 712 is located at fixed part 733 Inside and fix.

Lid 730 can be made with translucent material, and the light to be sent out by illumination region 714 can be passed by lid 730 It reaches.

On the other hand, light shielding part 734 can be set to the upper surface of lid 730, and the light shielding part 734 can obstruct the light.It hides Light portion 734 can not be set to a part of region in the upper surface of lid 730.Wherein, a part of region can be with predetermined Interval separates with fingerprint sensor 711 and has along fingerprint sensor 711 open area 735 of the strip of preset width.

In addition, light shielding part 734 can pass through the settings such as deposition, printing, spraying and plating.For example, light shielding part 734 can lead to Solution of the coating with shade function is crossed to be formed, or can be formed by coating the film with shade function.

Therefore, the light moved by lid 730 can be gone out by the open area 735 set on the upper surface of lid 730 It penetrates.Open area 735 can play indicator feature as described above.

Shallow layer (not shown) can also be set to open area 735, and the coating can have color.

Also, the coating can be formed as sufficiently thin so that the light conveyed by lid 730 is emitted.The color layers In the case that by illumination region 714 it is non-luminous can also apparent color, thus also may be used in the case that by illumination region 714 is non-luminous To realize the function of indicator.

Also, can be arranged between 732 below the upper surface of substrate 720 722 and lid 730 for bonded substrate 720 and The adhesive 740 of lid 730.The type and form of adhesive 740 are not particularly limited, it is, for example, possible to use double faced adhesive tape.

Also, fingerprint sensor module 710 can be incorporated into the placement portion 751 of covering window 750.In the present embodiment, It is illustrated in case of placement portion 751 is formed as groove-like, but other than groove-like, placement portion 751 is embodied as covering Following explanation can also be applicable in the case of below lid window 750 in the same manner.

For the combination of fingerprint sensor module 710 and placement portion 751, adhesive portion 755 can be set to fingerprint sensor mould Between block 710 and placement portion 751.

Adhesive portion 755 can be set to entire placement portion 751, and can have translucency so that from the opening of lid 730 The light that region 735 emits enters covering window 750.

The explanation of above-mentioned the utility model is only illustrative, as long as the utility model technical field is common Technical staff can understand in the case where not changing the technological thought or essential feature of the utility model, can also deform easily For other specific forms.Therefore, embodiment described above is only in all respects illustrative, and however, it is not limited to this.For example, Each structure member illustrated as single type can also disperse to be implemented, and equally, use the structure of dispersion illustrated Component can also be implemented in the form of combination.

The scope of the utility model is indicated by the appended claims, and not by above-mentioned detailed description, And the form for having altered or deforming derived from the meaning of claims, range and its impartial concept should be interpreted that and be included in In the scope of the utility model.

Claims (18)

1. a kind of electronic equipment covers the one-piece type fingerprint sensor module component of window, which is characterized in that including：

Window is covered, electronic equipment is set to, the image by display module is shown, below towards on the inside of the electronic equipment It is formed with placement portion；

Fingerprint sensor module, including fingerprint sensor and substrate, and it is located at the placement portion, the fingerprint sensor, which has, to be used In the detecting means of sensing fingerprint, the substrate is electrically connected with the fingerprint sensor；And

Adhesive portion is set between the placement portion and the fingerprint sensor module, the fingerprint sensor module is fixed In the placement portion.

2. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute Placement portion is stated to be set on the surface below the covering window.

3. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute The shape for stating placement portion and the fingerprint sensor is accordingly formed as groove-like, and institute is fixed in fingerprint sensor placement State placement portion.

4. electronic equipment as claimed in claim 3 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute Placement portion is stated to be formed by etching or machining.

5. electronic equipment as claimed in claim 3 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute At least part for stating detecting means and the fingerprint sensor is located in the placement portion.

6. electronic equipment as claimed in claim 5 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute At least part for stating substrate is also located in the placement portion.

7. electronic equipment as claimed in claim 3 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute The thickness for stating the covering window between the upper surface of the upper surface of covering window and the detecting means is 200um~300um.

8. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that institute State the display area that covering window includes display image and the frame region equipped with printing layer without showing image, and the peace The portion of setting is formed in the frame region.

9. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The region for being exposed to the upside for being equivalent to the fingerprint sensor in the upper surface of described covering window of user is also formed with cloudy quarter Or positive needle drawing case.

10. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that It is formed with the open area with preset width along the edge of the placement portion below the covering window, and described The downside for covering window is equipped with illumination region, and the illumination region, which is provided, to be sent out by the open area to the upper surface of described covering window The light penetrated.

11. electronic equipment as claimed in claim 10 covers the one-piece type fingerprint sensor module component of window, which is characterized in that At least one illumination region is set to the main substrate being electrically connected with the substrate or the fingerprint sensor module.

12. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The covering window includes the display area for showing image and the frame region equipped with printing layer without showing image, and described Placement portion is formed in the display area.

13. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The covering window is made of the material in glass, sapphire, zirconium and transparent resin.

14. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The covering window is also independently from the covering window and the non-display portion that is arranged, and the placement portion be formed in it is described non- Display unit.

15. electronic equipment as claimed in claim 14 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The non-display portion is made of resin or metal material.

16. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that

The covering window includes：

First covering window, is showed thereon for user；

Adhesive linkage is set to described first and covers below window；And

Second covering window is covered above with the adhesive linkage and described first and is bonded below window,

Wherein, the placement portion perforation described second covers window and is formed.

17. electronic equipment as claimed in claim 16 covers the one-piece type fingerprint sensor module component of window, which is characterized in that The thickness of the second covering window is corresponding with the height of the fingerprint sensor.

18. electronic equipment as described in claim 1 covers the one-piece type fingerprint sensor module component of window, which is characterized in that Color layers are set on the surface of the placement portion, and the adhesive portion is filled in the color layers.